The paper presents a modified and universally applicable diagnostic fragment-ion-based extension strategy (DFIBES) to efficiently process the information acquired by liquid chromatography-electrospray ionization source in combination with hybrid ion trap and high-resolution time-of-flight mass spectrometry [LC-(ESI)-IT-TOF/MS], facilitating the structural determination of serial components contained in traditional Chinese medicine prescription (TCMP). The key advantage of DFIBES is that it facilitates the rapid classification of the complicated peaks into well-known chemical families, which significantly simplifies the complicated procedures of structural characterization. Moreover, considering that a certain family of compounds usually produces identical fragment ions, the DFIBES would be widely applicable to many other families of compounds identification besides the presently validated ginsenosides and lignans. Shengmai injection, composed of Panax ginseng, Radix ophiopogonis, and Schisandra chinensis, was taken as a TCMP example to conduct and validate the proposed DFIBES. Diagnostic fragment ions (DFI) for each chemical family contained in Shengmai injection was firstly determined or proposed from the separated analysis of 15 authentic standards and the extract of S. chinensis. The ESI-MSn fragmentation patterns of ginsenosides and lignans were then systematically studied for developing the 'structure extension' approach. Upon LC-IT-TOF/MS analysis and DFIBES, more than 30 ginsenosides and 20 lignans have been rapidly detected and identified from Shengmai injection, supporting that the DFIBES is a very powerful strategy and would be widely applicable for the complicated components identification from TCMP and other complicated mixtures.
A rapid, sensitive and stereoselective HPLC method based on chiral column analysis was developed and fully validated for the simultaneous determination of the two enantiomers of ibuprofen in human plasma. Using this method, a chiral pharmacokinetic study of two different ibuprofen tablets, i.e. dexibuprofen tablets and racemic ibuprofen tablets, was carried out on 20 healthy Chinese male volunteers according to a single-dose (400 mg), two-way, cross-over randomized design. When a 'non-chiral calculation method' was used, the statistical analysis showed no significant difference for the pharmacokinetic parameters (AUC0-infinity, AUC0-t, Cmax and tmax) between the two oral formulations, suggesting that they were pharmaceutically bioequivalent. Considering that the pharmacological activity of ibuprofen resides exclusively in the S(+)-enantiomer, and that the unidirectional inversion of the R(-) to the S(+)-enantiomer is incomplete and might be race-dependent, the pharmacokinetic parameters for only the S(+)-enantiomer were further compared and the inversion ratio calculated. It was found that only 25% of R(-)-ibuprofen in the racemic ibuprofen tablets was inverted into S(+)-ibuprofen in the Chinese population, which suggested that dexibuprofen might possess a much stronger pharmacological activity than that of racemic ibuprofen when administered at the same dose.
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